Description

The second edition of a bestseller, this book introduces tribology in a way that builds students’ knowledge and understanding. It includes expanded information on topics such as surface characterization as well as recent advances in the field. The book provides additional descriptions of common testing methods, including diagrams and surface texturing for enhanced lubrication, and more information on rolling element bearings. It also explores surface profile characterization and elastic plastic contact mechanics including wavy surface contact, rough surface contact models, friction and wear plowing models, and thermodynamic analysis of friction.

Table of Contents

The State of Knowledge in Tribology.

Strength and Deformation Properties of Solids.

Adhesion and Cohesion Properties of Solids: Adsorption to Solids.

Solid Surfaces.

Contact of Nonconforming Surfaces and Temperature Rise on Sliding Surfaces.

Overview of Friction.

Lubrication Overview – Physical Aspect.

Lubrication Overview — Chemical Aspect.

Wear.

Equations for Friction and Wear.

Designing for Wear Life and Frictional Performance: Wear Testing, Friction Testing, and Simulation.

Diagnosing Tribological Problems.

Characterization of Surfaces.

Surface Engineering and Processes.

Example of Tribological Systems.

Index.

About the Authors

Kenneth C. Ludema received Bachelor and Master's degrees in mechanical engineering from the University of Michigan. He then completed two Ph.D. programs, one in material science at Michigan and one in physics at Cambridge University. He went on to pursue a distinguished career as Professor of Mechanical Engineering at the University of Michigan, specializing in the friction and wear of materials.

Layo Ajayi is a Principal Materials Scientist in the Tribology group of Argonne National Laboratory. He earned a doctorate degree in Materials Science and Engineering from University of Michigan in 1989 studying with Ken Ludema. He has conducted research work in general areas of lubrication and wear mechanisms, as well as surface engineering for more than 30 years in both industry (Wedeven Associates and Caterpillar, Inc.) and Argonne National Laboratory. His recent activities focused on the study of boundary lubrication mechanisms using the various analytical tools; development of a new scuffing theory; surface engineering in form of texture control; friction stir processing; advanced lubricant design and evaluation. Layo is a Fellow of STLE (2011), Member of ASM-International, American Ceramic Society and SAE. He has authored and co-author over 200 technical papers and reports in the area of tribology and surface engineering, and holds 7 US patents.